PL199666B1 - Fuse - Google Patents

Abstract

A fuse (20) includes a fuse element (25), having a fusible portion (22) provided between inner side edges (21a) of a pair of parallel flat-plate terminal portions (21, 21), and an insulating housing (23) covering the inner side edges (21a) of the flat-plate terminal portions (21) and the fusible portion (22). A middle portion (21f) of each of the flat-plate terminal portions (21), located at the lateral position relative to the fusible portion (22), is fixedly gripped by a mating terminal (11) of a fuse mounting portion, so that the flat-plate terminal portion is electrically connected to the mating terminal. <IMAGE>

Description

The subject of the invention is a fuse.

More particularly, the subject matter of the invention relates to a flat type fuse, in which the fuse element having a fusible portion sandwiched between a pair of parallel flat terminal portions is secured inside the insulating housing.

On Pos. And there is shown a known flat type fuse 50 in which the fuse element 56 is formed in such a way that its fusible part 52 is seated between a pair of parallel flat metal clamping plates (hereinafter "flat clips") 51 and a part close to the tip of it. the fuse element 56 (at which the fusible part 52 is located) is housed in the insulating casing 53.

Each of the flat clips 51 has a shaft portion of a clip 54 housed in the insulating casing 53, and a plug end 55 that extends significantly outward (downward in Fig. I) from the insulating casing 53.

The fusible portion 52 has a predetermined cross-sectional area and extends between the opposite inner side edges 54a of the flat clips 51.

As shown in Pos. II, the fuse 50 is fixed in the fuse fixing member 60, e.g. in the fuse box, and the plug terminals 55 are rigidly clamped by the mating terminals 61 of the fuse fixing element 60 and thus electrically connected to the mating terminals 61, respectively.

As shown in Pos. III, the mating clamp 61, e.g. a fork clamp, includes a terminal element portion formed at one end of the busbar, and the distal end portion of this terminal component portion is split by a U-shaped slot 61b extending along a portion of the terminal component. and the upper ends of the split remote end portion bulge inward toward each other to form a pair of biasing members 61a.

However, if the plug terminals 55 (the lower ends of the flat terminals 51 of Fig. III) are merely supported and locked in the terminals 61 when the fuse 50 is engaged in the fuse holder member 60, balancing the fuse support in the fuse holder member 60 is balanced. is not appropriate.

Therefore, fuse-guiding walls 62, which support the insulating casing 53 and serve to guide the fuse insertion during the assembly operation, and to prevent the fuse 50 from tilting or the like in its mounting condition, must be provided in the fuse mounting member 60 as shown in Pos. II.

The fuse holder 60 has an insulating wall 63 preventing current leakage between the plug terminals 55 of the fuse 50 to be installed. This insulation wall 63 must be of sufficient height along the length of the plug terminals 55 extending significantly outside the insulating housing 53. The upper end of the insulating wall 63 contacts the lower edge of the insulating casing 53, thereby positioning the fuse 50 with respect to the fuse holder 60.

Thus, the height of the fuse mounting element 60 in the fuse mounting direction increases due to the condition of the fuse guide walls 62 and the insulating wall 63. Accordingly, the problem of increased dimensions of the fuse box arises. In addition, the walls guiding the fuse 62 must be molded with great precision to prevent the fuse 50 from swinging out.

In addition to mounting the fuse 50 in the fuse mounting member 60, each plug terminal 55 must be gripped by the pressing members 61a and 61a of the mating clip 61 provided at the bottom of the portion covered by the fuse guide wall 62 and the insulating wall 63, and thus the efficiency of the insertion operation. not suitable.

Moreover, the plug terminals 55 of the flat terminals 51 of the fuse element 56 protrude significantly outside the insulating casing 53. This causes numerous problems during transport when, due to the contact of multiple fuses 50 with each other, the plug terminals 55 are damaged and the fusible part 52 is exposed to deformation or fracture by an external force applied to the plug terminals 55 as they make contact with each other.

It is therefore an object of the invention to solve the above problems, and in particular to provide a good fuse in which the balance and support of the fuse are improved.

In the fuse holder member, while the fuse holder member can be made smaller and the efficiency of the mounting operation can be increased. Moreover, deformation or breakage of the fusible part under the action of external force can be prevented.

A fuse comprising a fuse link having a pair of parallel flat-plate clamping portions and a fusible portion formed between the inner side walls of these parallel flat-plate clamping portions, an insulating casing covering the fusible portion, and inner edge edges and top edge edges of the flat-plate clip portions, is characteristic of this according to the invention, that the central part of each flat-plate clamping part in the fuse mounting direction is permanently pressed by the mating clamp of the fuse fixing part, in the thickness direction of the flat-plate clamping parts, such that the flat-plate clamping parts are properly electrically connected to the mating clamps .

Preferably, the insulating housing includes positioning abutments which abut respectively against the mating terminals so as to position the fuse when mounted in the fuse mounting portion.

Preferably, the insulating casing covers the outer peripheral edges of the flat-plate clamping portions.

Preferably, the insulating casing consists of a pair of integrally connected casing members holding the fuse link between them in the thickness direction of the flat-plate clamping portions, and a pair of large and small pins protruding from the inner surface of each casing member, which pins are after passing through the corresponding through holes in the flat plate clamping portions, they are secured, respectively, in mounting holes formed in the inner surface of the housing member and opposed to the pins.

Preferably, the insulating housing includes abutment positioning portions that abut, respectively, against the mating clamps to position the fuse with respect to the fuse mounting portion during insertion.

Preferably, the housing members are T-shaped.

A favorable effect of the use of a fuse according to the invention is, inter alia, that both the inner edge edges and the upper edge edges of the flat terminal parts as well as the fusible part of the fuse are covered with an insulating casing. None of the terminals protrude outside the insulating casing, as is the case with the fuses used so far.

Therefore, even if a plurality of fuses are in contact with each other during transport, the fusible elements without any terminals extending beyond the insulating casing will not touch each other and will not be exposed to external force. Accordingly, the flat clamping parts are protected against damage, and thus the fusible part is also protected against external force that could damage or break it.

The center portion of each of the flat terminal portions of the fuse element is firmly pressed down by the pressure tips. Therefore, the balance and support of the fuse in the fuse holder is improved.

The fuse-guiding walls in the fuse mounting element do not have to be made with such high precision and may be of a smaller height. Therefore, the fuse holder element is smaller in size, and the fuse installation efficiency is greater, while improving the fuse insertion operation.

Due to the fact that the insulating casing includes positioning abutments, the fuse is correctly positioned with respect to the pressing terminals. The fuse does not have to be positioned against the insulating wall, and its proper positioning is achieved regardless of the precision of the fuse mounting element, while improving the fuse insertion operation. In addition, it prevents deformation or damage to the fusible part of the fuse.

By using pins to connect a pair of casing members together, even if the outer edge edges and the lower edge edges of the flat clamping portions are subjected to an external force as a result of contact with another element, the external force will not act directly on the fusible part.

On Pos. And the well-known fuse is shown in the front view; in Pos. II - fuse from Pos. And mounted on the familiar fuse holder, in front view, while on the

PL 199 666 B1

Pos. III, the fuse from Pos. And mounted in the well-known fuse holder, side view.

The subject matter of the invention is illustrated in the following in the following examples: Fig. 1 shows a first embodiment of a fuse according to the invention, in a perspective, exploded into its component parts; Fig. 2 is a front view of the fuse of Fig. 1; Fig. 3 is a front view of the fuse of Fig. 1 mounted in the fuse box; Fig. 4 is a side view of the fuse of Fig. 1 installed in the fuse box; Fig. 5 is a front view of a second embodiment of a fuse according to the invention, and Fig. 6 is a front view of a third embodiment of a fuse according to the invention.

The fuse 20 shown in Fig. 1 is a flat fuse in which the fuse element 25 having a fusible portion 22 between a pair of parallel flat clamping portions 21 is located inside the insulating housing 23.

Each of the flat clip portions 21 is rectangular in shape and the fusible portion 22, having a defined cross-sectional area, extends between opposing inner side edges 21a and 21b of the flat clip portions 21.

The insulating casing 23 consists of two T-shaped casing members 24 which are integrally connected to each other so as to catch the fuse element 25 therebetween in the thickness direction of the fuse element 25 and are welded together. A pair of large and small pins 24a are formed on and protrude from the inner surface of each housing member 24. The pins 24a pass through corresponding through holes 21b formed in the flat clamping portions 21 and then fit into the respective fixing holes 24b. formed within the inner surface of the housing member 24 and facing the pins 24a.

Thus, the insulating casing 23, attached to the fuse element 25, covers its fusible portion 22, the inner side edges 21a and the upper edge edges 21c of the flat terminal portions 21. Therefore, as shown in Fig. 2, the fuse element 25 is shielded by the insulating casing. 23 except for the obverse and reverse of that portion of each of the flat clamping portions 21 extending from its outer side edge 21d and lower edge 21e to the area containing its center portion 21f laterally with respect to the fusible portion 22.

Moreover, the center portion 21f of each of the flat clamping portions 21 is fixedly clamped by the mating clamp 11 of the fuse mounting portion 10, and thus the flat clamping portion 21 is electrically connected to the mating clamp 11 (Fig. 3).

The positioning abutments 24c as well as the steps for engaging the device 24d are formed in those parts of the insulating casing 23 which cover the upper edge edges 21c of the flat clamping portions 21.

When the fuse 20 is mounted in the fuse mounting member 10, the positioning abutments 24c abut the upper edges of the mating terminals 11, thereby positioning the fuse 20 in its retracted state (Figures 3 and 4).

In order to remove the fuse 20 mounted in the fuse holder 10, the fuse lifter (not shown) engages with the steps for engaging the device 24d.

In the case of the fuse 20, in the first embodiment, the inner side edges 21a and the top edge edges 21c of the flat clamping portions 21, as well as the fusible part 22, are covered by an insulating casing 23 as shown in Fig. 2. Fuse element 25 there are no plug terminals (such as the terminals 55 of the heretofore fuse 50 shown in Fig. I) which protrude outside the insulating casing 23, and the fuse 20 is generally rectangular in shape when viewed from the front.

Accordingly, even if a plurality of fuses 20 make contact with each other during transport, the fuse elements 25 having no plug terminals protruding beyond the insulating casing 23 are not exposed to each other, nor are they subjected to external forces that could otherwise be triggered when they come into contact with other elements. Thus, the flat clamping portions 21 are prevented from being damaged, and the fusible part 22 is prevented from being subjected to external force, which prevents the fusible part 22 from being damaged or broken.

PL 199 666 B1

Even if some external force would be exerted on the flat clamping portion 21 by contact with the outer side edge 21d or the lower edge edge 21e, this force will hardly have a direct effect on the fusible portion 22, since the flat clamping portion 21 is supported by the pins passing through it. 24a of housing members 24.

The fuse 20 is mounted in the fuse mounting part 10, for example in the fuse box shown in Figs. 3 and 4. The middle parts 21f of the flat clamping parts 21 are permanently pressed by the respective mating terminals 11 of the fuse mounting part 10, so that the flat clamping parts 21 are electrically connected to the corresponding mating terminals 11.

As shown in Fig. 4, the mating clamp 11 is, for example, a so-called fork clamp comprising a clamping member portion formed at one end of the busbar, and a distal end portion of this clamping member portion is bisected by a contoured slit 11b. U extending in the direction of the clamp member portion and the upper ends of the split distal end portion bulge inward toward each other to form a pair of biasing members 11a.

Each of the flat clamping parts 21 of the safety element 25 of the fuse 20, in the first embodiment, is locked by a mating clamp 11 in the central part 21f of the flat clamping part 21, which is its central part in the mounting direction (up and down in the drawing). . Therefore, compared to the hitherto used fuse 50 (Pos. II and Pos. III), in which the plug terminals 55 protruding outwards from the insulating casing 53 had to be fixedly supported, keeping the support balance of the fuse 20 in the part securing the fuse 10 is better. and the deflection of the fuse in the mounted state and furthermore the overall height of the fuse 20 are reduced.

Accordingly, the fuse-guiding walls 13 of the fuse holder 10 shown in Fig. 3 need not be made with high precision so as to prevent deflection of the fuse 20, and the height of the guiding walls 13 can be made smaller.

The insulating casing 23 protects against voltage losses between the flat terminal parts 21 of the fuse 20 mounted in the fuse mounting part 10. Therefore, the insulating wall 12 of the fuse mounting part 10 only needs to electrically isolate the pair of mating terminals 11 from each other, and therefore may have a smaller height. than the insulating wall 63 of Pos. II.

Accordingly, the portion for securing the fuse 10 can be made smaller in size while improving the efficiency of the fuse 20 insertion operation.

The insulating casing 23 covers the upper edge edges 21c of the flat clamping portions 21 and has positioning abutments 24c abutting the upper edges of the mating clamps 11 to position the fuse 20 in the inserted state.

Thus, the fuse 20 is directly positioned with respect to the mating terminals 11 and need not be positioned with respect to the insulating wall 12 or the fuse mounting part 10, and accurate positioning can be achieved regardless of the manufacturing precision of the fuse mounting part 10.

An increase in durability is also achieved, while keeping the dimensions of the fuse 10 fastening part small. The flat terminal parts 21 of the fuse 20, in the first embodiment, are prevented from being damaged, and furthermore, external force cannot act on the fusible part 22, preventing it from deforming or breaking. .

In addition, the portion for securing the fuse 10 into which the fuse 20 is mounted can be made smaller and does not need to be made with high precision. The efficiency of the fuse insertion operation is increased while reducing the manufacturing cost and maintaining the ease of fuse installation.

The fuse element and the insulating housing of the fuse according to the invention are not limited to the structures and embodiments described above, but may take various forms.

For example, in the fuse 30 shown in Fig. 5, the insulating housing 33 attached to the fuse element 35 covers the fusible portion 32, the inner side edges 31a, the top edge edges 31c and the outer side edges 31d of the flat clip portions 31.

Thus, the fuse element 35 is enclosed by an insulating housing 33 except for the obverse and the reverse of the portion of each flat gripping portion 31 extending from its lower peripheral edge 31e to the area containing its central portion 31f laterally with respect to the fusible portion 32.

PL 199 666 B1

The central portion 31f of each of the flat clamping portions 31 is fixedly clamped by the mating clamp 11 of the fuse mounting portion 10 and is thus electrically connected to the mating clamp 11.

The exposure of the fuse element 35 of the fuse 30, in this case, has been reduced to the minimum amount required, whereby the protection against damage to the fusible part 32 may be even better. Otherwise, the structure and operation are similar to the fuse 20 described above.

In the fuse 40 shown in Figure 6, the insulating housing 43 attached to the fuse element 45 covers the fusible portion 42 and only the inner side edges 41a of each of the flat clamping portions 41, and the side and reverse of each of the flat clamping portions 41 extending over exposed from the upper edge 41c and lower edge 41e to the area containing the center portion 41f laterally with respect to the fusible portion 42.

The fuse 43 can be mounted in the fuse mounting portion 10 in both the upward and downward directions, which can increase the efficiency of the fuse mounting operation. Otherwise, the structure and operation are similar to the fuse 20 described above.

In any of the above cases, although each of the flat clamping portions 21 (31, 41) is fixedly clamped at its central portion 21f (31f, 41f) located laterally to the fusible portion 22 (32, 42), the subject matter of the invention is not limited. to such a structure, and according to the design of the mating terminal, each flat clamping portion may be suitably stably clamped in its center portion, in the mounting direction, as long as the center portion is exposed from the insulating casing.

As described above, the subject matter of the invention is applicable to flat fuses mounted in elements for securing electric fuses of junction boxes in vehicles, etc. In particular, the invention can suitably be applied to a compact electric junction box, where the fuse fixing element has to be smaller.

Claims (6)

1. A fuse comprising a fuse having a pair of parallel flat-plate clamping portions and a fusible portion formed between the inner side walls of these parallel flat-plate clamping portions, and an insulating casing covering the fusible portion, and inner edge edges and top edge edges of the flat-plate clip portions, characterized by that the central part (21f) of each flat-plate clamping part (21) in the fuse-mounting direction is permanently pressed by the mating clamp (11) of the fuse-mounting part (10), in the thickness direction of the flat-plate clamping parts (21) so, that the flat-plate clamping portions (21) are suitably electrically connected to the mating clamps (11). 2. A fuse according to claim The fuse as claimed in claim 1, characterized in that the insulating housing (23) includes positioning abutments which abut respectively against the mating terminals (11) so as to position the fuse (20) when mounted to the fuse mounting portion (10). 3. The fuse according to claim A method as claimed in claim 1 or 2, characterized in that the insulating casing (23) covers the outer peripheral edges (21d) of the flat-plate clamping portions (21). 4. The fuse according to claim The insulating casing (23) as claimed in claim 1 or 2, characterized in that the insulating casing (23) consists of a pair of integrally interconnected casing members (24) holding the fuse link (25) between one another in the thickness direction of the flat-plate clamping portions (21), and a pair of large and small pins (24a) protruding from the inner surface of each housing member (24), which pins (24a) after passing through corresponding through holes (21b) in flat-plate clamping portions (21), are secured, respectively, in mounting holes (24b) formed in the inner surface of the housing member (24) and opposed pins (24a). 5. The fuse according to claim The fuse as claimed in claim 1, characterized in that the insulating housing (23) comprises abutment positioning parts which abut respectively against the mating terminals (11) to position the fuse (20) with respect to the fuse mounting part (10) during its insertion. 6. Fuse according to claim 4, characterized in that the housing members (24) have a T-shape.